Find the osculating plane of r(t) =< t2, 32 t3, t > at (1, 2/3, 1)

Find T, N, B, aT, aN at t=2 (#13) 13. r(t) = (t3/3)i + (t2/2)j when...

Find T, N, B, aT, aN at t=2 (#13) 13. r(t) = (t3/3)i + (t2/2)j when t > 0

Find an equation of the normal plane to x = t, y = t2 , z...

Find an equation of the normal plane to x = t, y = t2 , z = t3 at the point (2, 4, 8)

1.Let y=6x^2. Find a parametrization of the osculating circle at the point x=4. 2. Find the...

1.Let y=6x^2. Find a parametrization of the osculating circle at the point x=4. 2. Find the vector OQ−→− to the center of the osculating circle, and its radius R at the point indicated. r⃗ (t)=<2t−sin(t), 1−cos(t)>,t=π 3. Find the unit normal vector N⃗ (t) of r⃗ (t)=<10t^2, 2t^3> at t=1. 4. Find the normal vector to r⃗ (t)=<3⋅t,3⋅cos(t)> at t=π4. 5. Evaluate the curvature of r⃗ (t)=<3−12t, e^(2t−24), 24t−t2> at the point t=12. 6. Calculate the curvature function for r⃗...

Find the curvatures of the given curves. i: r(t) = ⟨t, t2/2, t2⟩ ii: r(t) =...

Find the curvatures of the given curves. i: r(t) = ⟨t, t2/2, t2⟩ ii: r(t) = ti + t2j + etk

Find equations of the normal plane and osculating plane of the curve at the given point...

Find equations of the normal plane and osculating plane of the curve at the given point x = sin(2t), y = t, z = cos(2t) at (0, pi, 1)

6. Given vector function r(t) = t2 − 2t, 1 + 3t, 1 3 t 3...

6. Given vector function r(t) = t2 − 2t, 1 + 3t, 1 3 t 3 + 1 2 t 2 i (a) Find r 0 (t) (b) Find the unit tangent vector to the space curve of r(t) at t = 3. (c) Find the vector equation of the tangent line to the curve at t = 3

The position of a particle is given by x = (t3)/3 + t2 - 8t -...

The position of a particle is given by x = (t3)/3 + t2 - 8t - 4 and y = t2 + 8t + 3. 1) When, if ever is the particle's SPEED is constant? Ans: t = 0s, 1s, -4s 2) When is the speed increasing?

Find the curvature of ~r(t) = (t3 −5)~ i + (t4 + 2)~ j + (2t...

Find the curvature of ~r(t) = (t3 −5)~ i + (t4 + 2)~ j + (2t + 3)~ k at the point P(−6,3,1)?

Consider the parametric curve x = t2, y = t3 + 3t, −∞ < t <...

Consider the parametric curve x = t2, y = t3 + 3t, −∞ < t < ∞. (a) Find all of the points where the tangent line is vertical. (b) Find d2y/dx2 at the point (1, 4). (c) Set up an integral for the area under the curve from t = −2 to t = −1. (d) Set up an integral for the length of the curve from t=−1 to t=1.

Evaluate the integral. (sec2(t) i + t(t2 + 1)7 j + t3 ln(t) k) dt

Evaluate the integral. (sec2(t) i + t(t2 + 1)7 j + t3 ln(t) k) dt